Numerical Simulation of VHF E®ects on Densities of Important Species for Silicon Film Deposition at Atmospheric Pressure

ZHUANG Juan (庄娟); SUN Jizhong (孙继忠); SANG Chaofeng (桑超峰); WANG Dezhen (王德真)

doi:10.1088/1009-0630/14/12/13

Plasma Science and Technology > 2012 > 14(12): 1106-1109. > DOI: 10.1088/1009-0630/14/12/13

ZHUANG Juan (庄娟), SUN Jizhong (孙继忠), SANG Chaofeng (桑超峰), WANG Dezhen (王德真). Numerical Simulation of VHF E®ects on Densities of Important Species for Silicon Film Deposition at Atmospheric Pressure[J]. Plasma Science and Technology, 2012, 14(12): 1106-1109. DOI: 10.1088/1009-0630/14/12/13

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Numerical Simulation of VHF E®ects on Densities of Important Species for Silicon Film Deposition at Atmospheric Pressure

School of Physics and Optoelectronic Technology, Dalian University of Technology, Dalian 116023, China

Funds: supported by National Natural Science Foundation of China (Nos. 10775026, 50537020, and 50528707)

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Received Date: September 12, 2011

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Abstract

Abstract

The characteristics of homogeneous discharges in mixed gases of hydrogen diluted silane and argon at atmospheric pressure are investigated numerically based on a one-dimensional fluid model. This model takes into account the primary processes¡excitation and ionization, sixteen reactions of radicals with radicals in silane/hydrogen/argon discharges¡and therefore, can adequately represent the discharge plasma. We analyze the effects of very high frequency (VHF) on the densities of species (e, H, SiH₃, SiH⁺ ₃ and SiH₂) in such discharges using the model. The simulation results show that the densities of SiH₃, SiH⁺ ₃, H, and SiH2 increase with VHF when the VHF ranges from 30 MHz to 150 MHz. It is found that the deposition rate of ¹c-Si:H ¯lm depends on the concentration of SiH₃, SiH⁺ ₃, SiH2, and H in the plasma. The e®ects of VHF on the deposition rate and the amount of crystallized fraction for ¹c-Si:H ¯lm growth is also discussed in this paper.
- plasma,
- numerical simulation,
- rogen dilution

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